1 |
无人水下航行器的远距离输送 |
CN201580010769.4 |
2015-01-15 |
CN106068438A |
2016-11-02 |
凯勒·斯托尔斯 |
一种射弹(100)包括引导飞行中的射弹的引导组件(102、103)。射弹进一步包括壳体和中空的鼻锥体(106)。壳体与引导组件配合并且鼻锥体与壳体耦合。鼻锥体包括被配置为容纳UUV(202)的内表面。射弹进一步包括控制器(108),其识别用于部署飞行中的UUV的条件并且响应于确定条件满足使鼻锥体从壳体脱离。 |
2 |
Underwater intelligence gathering weapon system |
US09304537 |
1999-05-04 |
US06220168B1 |
2001-04-24 |
Robert Woodall; Felipe Garcia; John Sojdehei |
An underwater intelligence gathering weapon system accurately places a weapon underwater and then communicates therewith from other platform(s). The weapon is equipped to maneuver through the air to a destination at the water's surface. A first transceiver, mounted onboard the weapon and coupled to the mine's logic portion, is activated after the weapon is in the water. The first transceiver can send and receive magneto-inductive signals. A second transceiver that sends and receives magneto-inductive signals is remotely located with respect to the first transceiver. Once deployed, the weapon can be controlled from a safe distance and can report any intelligence information collected by onboard sensors. |
3 |
Encapsulated torpedo mine weapon system |
US26593672 |
1972-06-23 |
US3811379A |
1974-05-21 |
SONDHEIMER A |
An underwater weapons system having an encapsulated torpedo and an anchor assembly which may be planted in the water by a submarine, aircraft, or surface ship. Shortly after water-entry the anchor separates, leaving the encapsulated torpedo vertically moored at a predetermined depth. Detection equipment on the casing listens passively for a target, and upon target detection, an active transducer is activated to classify the potential target. Upon classification, the casing opens, releasing and activating a homing torpedo having self-contained target-seeking capabilities.
|
4 |
Aerially launched marine mine |
US4596148 |
1948-08-24 |
US3017831A |
1962-01-23 |
ADELBERT BARRY |
|
5 |
Stabilizing system for mine dropped from aircraft |
US47084254 |
1954-11-23 |
US2942545A |
1960-06-28 |
FOGAL GORDON L; FROEHLICH RICHARD E; WEST STANLEY E; MILLARD BROCK |
|
6 |
Ice penetrating moored mine |
US334667 |
1981-12-14 |
US4966079A |
1990-10-30 |
Samuel A. Humphrey |
The invention disclosed is an anti-submarine moored mine for penetrating . The moored mine has an elongated streamline body with a heavy, strong forward hull structure that constitutes a forward penetrating means and a rearward chamber for housing an air braking means such as a parachute. The intermediate sections of the moored mine contain on specific chamber for housing an explosive means such as a warhead and a separate and distinct chamber for housing an inflatable buoyancy means used to fix the position of the moored mine in the water in the proximity of the target submarine. |
7 |
Parachute release mechanism |
US73859747 |
1947-04-01 |
US2616369A |
1952-11-04 |
BROWN GRAHAM B |
|
8 |
Marine mine |
US52308844 |
1944-02-19 |
US2472866A |
1949-06-14 |
THOMPSON JOHN I; MARLOWE DONALD E |
|
9 |
Aircraft-launched temporary drifting mine |
US18220317 |
1917-07-23 |
US1442345A |
1923-01-16 |
KEE CHARLES L |
|
10 |
Device for interfering with sailing of ship |
JP9558999 |
1999-04-01 |
JP2000292095A |
2000-10-20 |
HOSOYA FUMIO; IWAKURA MASATAKE |
PROBLEM TO BE SOLVED: To provide a device for interfering with sailing of a ship which can interfere effectively with sailing of a target ship.
SOLUTION: This device is so formed that it can be thrown down onto the sea. By the contact of the device with seawater, an electromotive force is generated in a battery 3, combustion gas is produced thereby and a plurality of line bodies 5 held inside are thrown into the air and spread on the sea. As a result, the line bodies 5 are made to twine around a propeller of a target ship passing thereon, so as to interfere with sailing of the ship.
COPYRIGHT: (C)2000,JPO |
11 |
Ship navigation jammers |
JP9558999 |
1999-04-01 |
JP4138996B2 |
2008-08-27 |
正剛 岩倉; 文夫 細谷 |
|
12 |
STAND-OFF DELIVERY OF UNMANNED UNDERWATER VEHICLES |
EP15703353.1 |
2015-01-15 |
EP3123102A1 |
2017-02-01 |
STOWERS, Kyle |
Embodiments described herein provide apparatus and method for stand-off deployment of UUVs utilizing self-directed projectiles that include guidance kits. One embodiment is a projectile that includes a guidance kit that directs the projectile in flight. The projectile further includes a shell and a hollow nose cone. The shell mates with the guidance kit and the nose cone couples with the shell. The nose cone includes an interior surface configured to house a UUV. The projectile further includes a controller that identifies a condition for deploying the UUV in flight, and detaches the nose cone from the shell in response to determining that the condition is satisfied. |
13 |
STAND-OFF DELIVERY OF UNMANNED UNDERWATER VEHICLES |
US14228686 |
2014-03-28 |
US20150375840A1 |
2015-12-31 |
Kyle Stowers |
Embodiments described herein provide apparatus and method for stand-off deployment of UUVs utilizing self-directed projectiles that include guidance kits. One embodiment is a projectile that includes a guidance kit that directs the projectile in flight. The projectile further includes a shell and a hollow nose cone. The shell mates with the guidance kit and the nose cone couples with the shell. The nose cone includes an interior surface configured to house a UUV. The projectile further includes a controller that identifies a condition for deploying the UUV in flight, and detaches the nose cone from the shell in response to determining that the condition is satisfied. |
14 |
Rocket decelerated mine |
US46263554 |
1954-10-15 |
US2848945A |
1958-08-26 |
BRUMBAUGH DONALD Q |
|
15 |
Resilient support for the firing control mechanism of a marine mine |
US46011442 |
1942-09-29 |
US2493788A |
1950-01-10 |
TURLAY JOSEPH D |
|
16 |
Submarine mine |
US40460841 |
1941-07-30 |
US2398794A |
1946-04-23 |
MALTBY WILSON R |
|
17 |
STAND-OFF DELIVERY OF UNMANNED UNDERWATER VEHICLES |
EP15703353.1 |
2015-01-15 |
EP3123102B1 |
2018-07-04 |
STOWERS, Kyle |
Embodiments described herein provide apparatus and method for stand-off deployment of UUVs utilizing self-directed projectiles that include guidance kits. One embodiment is a projectile that includes a guidance kit that directs the projectile in flight. The projectile further includes a shell and a hollow nose cone. The shell mates with the guidance kit and the nose cone couples with the shell. The nose cone includes an interior surface configured to house a UUV. The projectile further includes a controller that identifies a condition for deploying the UUV in flight, and detaches the nose cone from the shell in response to determining that the condition is satisfied. |
18 |
유도활공 기뢰 어셈블리의 설치방법 |
KR1020140125110 |
2014-09-19 |
KR101575132B1 |
2015-12-07 |
박영근; 여주엽; 이대열; 이인원; 황영은 |
본발명은설치목표위치와원거리에서공중에서투하되어활공한후 목표지점에서입수하여수중에설치되는유도활공기뢰어셈블리및 이의설치방법에관한것이다. 본발명에따른유도활공기뢰어셈블리는, 내부에폭발물이채워지고수중에설치되는기뢰부(10)와, 상기기뢰부(10)와일체가되도록상기기뢰부(10)에고정되고, 상기기뢰부(10)를활공시키며, 항공기(F)에분리가능하게설치되는활공체부(20)를포함하고, 이의설치방법은, 항공기(F)로부터기뢰어셈블리(1)가분리되어상기기뢰어셈블리(1)가투하되는투하단계(S110)와, 상기기뢰어셈블리(1)의항공기(F)에설치된날개가전개되는날개전개단계(S120)와, 상기기뢰어셈블리(1)의날개가전개된이후, 상기기뢰어셈블리(1)가최종설치목표위치(T3)에인접한자율활공종료위치(T1)까지상기기뢰어셈블리(1)의위치를제어하면서활공하는자율활공단계(S130)와, 상기자율활공종료위치(T1)로부터상기기뢰어셈블리(1)의입수각도및 속도를조절하기위해상기기뢰어셈블리(1)가실속속도가되는활공종료위치(T2)로상승시키는입수조건조절단계(S140)와, 상기기뢰어셈블리(1)를설치목표위치(T3)의상방으로부터수면을통하여수중으로입수시키는입수단계(S150)를포함한다. |